APPLICATION STATUS AND PROSPECT OF MARKER SPECIES IN WATER COMPOSITION ANALYSIS OF DRAINAGE SYSTEM
-
摘要: 我国城市排水系统提质增效迫在眉睫,排水系统的水量组成解析是"摸清家底"的重要基础工作。由于应用水质特征指标解析排水系统水量的高效性和经济性,近年来有关排水系统的水量组成解析的特征指标选择及计算方法提升得到了大量研究与探讨,其中不同污染来源的特征指标合理选择更是本方法有效应用的核心。为了更好地提升基于特征指标的排水系统水量组成解析的科学性,对其应用现状及存在问题展开综述性讨论。基于对我国排水系统水质特征指标应用现状的思考,结合国内外多个城市的应用实践情况,综合分析了现状排水系统中各类水量来源的特征指标类型、选择依据及长期存在的问题,提出了我国排水系统水量组成解析中有关特征指标的重点研究和发展方向,以期为"十四五"我国排水系统的提质增效提供理论参考。Abstract: It is urgent to improve the quality and efficiency of urban drainage system in China. The analysis of water composition of drainage system is an important basic work in the building of background information frame. Due to the high efficiency and economy of using marker species to analyze the water quantity of drainage system, the selection of marker species and the improvement of calculation method of this method have been studied and discussed in recent years, among which the reasonable selection of marker species of different pollution sources was the core of application of this method. In order to improve the accuracy of water composition analysis of drainage system based on marker species, the application status and existing problems were discussed. Based on the consideration of the application status of marker species of drainage system in China, combined with the application practice of many cities at home and abroad, this paper comprehensively analyzed the types of marker species, basis for their selection and long-term problems in the source apportionment, and put forward the key research and development direction of relevant marker species in the water quantity composition analysis of drainage system in China. It provided an important theoretical reference for improving the quality and efficiency of drainage system in China during the 14th Five Year Plan period.
-
Key words:
- drainage system /
- marker species /
- analysis of water composition /
- source identification
-
[1] BOTTURI A,OZBAYRAM E G,TONDERA K,et al.Combined sewer overflows:a critical review on best practice and innovative solutions to mitigate impacts on environment and human health[J].Critical Reviews in Environmental Science and Technology,2020,51(15):1585-1618. [2] XU Z X,XU J,YIN H L,et al.Urban river pollution control in developing countries[J].Nature Sustainability,2019,2:158-160. [3] CHEN H,LIAO Z L,GU X Y,et al.Anthropogenic influences of paved runoff and sanitary sewage on the dissolved organic matter quality of wet weather overflows:an excitation-emission matrix parallel factor analysis assessment[J].Environmental Science & Technology,2017,51(3):1157-1167. [4] XU Z X,XIONG L J,LI H Z,et al.Pollution characterization and source analysis of the wet weather discharges in storm drainages[J].Desalination and Water Treatment,2017,72:169-181. [5] EPA U.Investigation of Inappropriate Pollutant Entries into Storm Drainage Systems_A User's Guide[S].1993. [6] 生态环境部.栗战书:总体上看中国水生态环境状况不容乐观[Z].2019:2020. [7] 徐祖信,王诗婧,尹海龙,等.基于节点水质监测的污水管网破损位置判定方法[J].中国环境科学,2016,36(12):3678-3685. [8] 徐祖信,汪玲玲,尹海龙,等.基于特征因子的排水管网地下水入渗分析方法[J].同济大学学报(自然科学版),2016,44(4):593-599. [9] YIN H L,XIE M,ZHANG L Y,et al.Identification of sewage markers to indicate sources of contamination:low cost options for misconnected non-stormwater source tracking in stormwater systems[J].Science of the Total Environment,2019,648:125-134. [10] ZHAO Z C,YIN H L,XU Z X,et al.Pin-pointing groundwater infiltration into urban sewers using chemical tracer in conjunction with physically based optimization model[J].Water Research,2020,175:115689. [11] YIN H L,WANG Y,YANG Y,et al.Tryptophan-like fluorescence as a fingerprint of dry-weather misconnections into storm drainage system[J].Environmental Sciences Europe,2020,32(1). [12] XU Z X,WANG L L,YIN H L,et al.Source apportionment of non-storm water entries into storm drains using marker species:modeling approach and verification[J].Ecological Indicators,2016,61:546-557. [13] 尹海龙,徐祖信,李怀正,等.电子企业水质特征因子与雨污混接诊断研究[J].中国环境科学,2015,35(9):2713-2720. [14] 徐祖信,汪玲玲,尹海龙.基于水质特征因子和Monte Carlo理论的雨水管网混接诊断方法[J].同济大学学报(自然科学版),2015,43(11):1715-1721. [15] 尹海龙,郭龙天,解铭,等.基于特征因子的食品工业废水排放追踪方法[J].同济大学学报(自然科学版),2019,47(8):1168-1174. [16] 尹海龙,王月,赵刚.分流制系统雨水管网混接旱天排放污染特征研究[J].环境科学学报,2019,39(10):3551-3558. [17] MARZORATI M,WITTEBOLLE L,BOON N,et al.How to get more out of molecular fingerprints:practical tools for microbial ecology[J].Environmental Microbiology,2008,10(6):1571-1581. [18] SANZ J L,KÖCHLING T.Molecular biology techniques used in wastewater treatment:an overview[J].Process Biochemistry,2007,42(2):119-133. [19] GILBRIDE K A,LEE D Y.Molecular techniques in wastewater:understanding microbial communities,detecting pathogens,and real-time process control[J].Journal of Microbiological Methods,2006,66(1):1-20. [20] 肖涛,滕严婷,汪维,等.基于水量水质分析的雨水管网状态诊断研究[J].给水排水,2020,56(2):121-124. [21] SANKARARAMAKRISHNAN N,GUO Q Z.Chemical tracers as indicator of human fecal coliforms at storm water outfalls[J].Environment International,2005,31(8):1133-1140. [22] PRIGIOBBE V,GIULIANELLI M.Quantification of sewer leakage by a continuous tracer method[J].Water Science and Technology,2011,64(1):132-138. [23] WOLF L,EISWIRTH M,HÖTZL H.Assessing sewer-groundwater interaction at the city scale based on individual sewer defects and marker species distributions[J].Environmental Geology,2006,49(6):849-857. [24] 蒋凤华.渤海和胶州湾海域溶解有机物荧光及其在环境溯源中的应用[D].青岛:中国海洋大学,2006. [25] TRAN N H,HU J Y,ONG S L.Simultaneous determination of PPCPs,EDCs,and artificial sweeteners in environmental water samples using a single-step SPE coupled with HPLC-MS/MS and isotope dilution[J].Talanta,2013,113:82-92. [26] DANESHVAR A,ABOULFADL K.Evaluating pharmaceuticals and caffeine as indicators of fecal contamination in drinking water sources of the Greater Montreal region[J].Chemosphere,2012,88(1):131-139. [27] KOSMA C I,LAMBROPOULOU D A,ALBANIS T A.Investigation of PPCPs in wastewater treatment plants in Greece:occurrence,removal and environmental risk assessment[J].Sci Total Environ,2014,466/467:421-438. [28] VIVIANO G,VALSECCHI S,POLESELLO S,et al.Combined Use of Caffeine and Turbidity to Evaluate the Impact of CSOs on River Water Quality[J].Water,Air,& Soil Pollution,2017,228(9):330. [29] SUI Q,WANG D,ZHAO W T,et al.Pharmaceuticals and consumer products in four wastewater treatment plants in urban and suburb areas of Shanghai[J].Environmental Science and Pollution Research,2015,22(8):6086-6094. [30] GILLI G,ROVERE R,TRAVERSI O,et al.Faecal sterols determination in wastewater and surface water[J].J Chromatogr B Analyt Technol Biomed Life Sci,2006,843(1):120-124. [31] GUITART C,READMAN J W.Critical evaluation of the determination of pharmaceuticals,personal care products,phenolic endocrine disrupters and faecal steroids by GC/MS and PTV-GC/MS in environmental waters[J].Anal Chim Acta,2010,658(1):32-40. [32] SAIM N,OSMAN R.Chemometric approach to validating faecal sterols as source tracer for faecal contamination in water[J].Water Res,2009,43(20):5023-5030. [33] ORDÓÑEZ E Y,QUINTANA J B,RODIL R,et al.Determination of artificial sweeteners in water samples by solid-phase extraction and liquid chromatography-tandem mass spectrometry[J].J Chromatogr A,2012,1256:197-205. [34] GAN Z W,SUN H W,WANG R N,et al.A novel solid-phase extraction for the concentration of sweeteners in water and analysis by ion-pair liquid chromatography-triple quadrupole mass spectrometry[J].Journal of Chromatography A,2013,1274:87-96. [35] 中国工程建筑协会.城镇分流制排水系统雨污混接调查及治理技术规程(征求意见稿)[S].2018. [36] BOTTURI A,DANESHGAR S,CORDIOLI A,et al.An innovative compact system for advanced treatment of combined sewer overflows (CSOs) discharged into large lakes:Pilot-scale validation[J].Journal of Environmental Management,2020,256(15):109937. [37] LAUNAY M A,DITTMER U,STEINMETZ H.Organic micropollutants discharged by combined sewer overflows:characterisation of pollutant sources and stormwater-related processes[J].Water Research,2016,104(NOV 1):82-92. [38] SAłATA A,BAK Ł,DABEK L,et al.Assessment of the degree of pollution of sediments from the rainstorm sewer system in the urbanised catchment[J].Desalination and Water Treatment,2016,57(3):1478-1489. [39] ZHANG J,HUA P,KREBS P.Influences of land use and antecedent dry-weather period on pollution level and ecological risk of heavy metals in road-deposited sediment[J].Environmental Pollution,2017,228:158-168. [40] ZHANG J,WU J W,HUA P,et al.The influence of land use on source apportionment and risk assessment of polycyclic aromatic hydrocarbons in road-deposited sediment[J].Environmental Pollution,2017,229:705-714. [41] 陈水平.基于电导率控制的城市雨水高效截流效率研究[D].重庆:重庆大学,2015. [42] HAFUKA A,YOSHIKAWA H,YAMADA K,et al.Application of fluorescence spectroscopy using a novel fluoroionophore for quantification of zinc in urban runoff[J].Water Research,2014,54:12-20. [43] ZGHEIB S,MOILLERON R,CHEBBO G.Priority pollutants in urban stormwater:Part 1-Case of separate storm sewers[J].Water Research,2012,46(20):6683-6692. [44] TRAN N H,GIN K Y,NGO H H.Fecal pollution source tracking toolbox for identification,evaluation and characterization of fecal contamination in receiving urban surface waters and groundwater[J].Science of the Total Environment,2015,538(15):38-57. [45] RONA M,GASSER G,NEGEV I,et al.A 3-D hydrologic transport model of a water recharge system using carbamazepine and chloride as tracers[J].Water Resources Research,2014,50(5):4220-4241. [46] KURODA K,MURAKAMI M,CGUMA K,et al.Assessment of groundwater pollution in tokyo using PPCPs as sewage markers[J].Environmental Science & Technology,2012,46(3):1455-1464. [47] BUERGE I J,POIGER T.Acesulfame:from sugar substitute to wastewater marker[Z].2011:65,176. [48] BUERGE I J,BUSER H,KAHLE M,et al.Ubiquitous occurrence of the artificial sweetener acesulfame in the aquatic environment:an ideal chemical marker of domestic wastewater in groundwater[J].Environmental Science & Technology,2009,43(12):4381-4385. [49] 祝竟成,陈浩,廖振良.三维荧光淬灭耦合平行因子分析与二维相关光谱在金属与溶解性有机物配位作用中的研究进展[J].能源环境保护,2019,33(1):1-5. [50] BARRETT M H,HISCOCK K M,PEDLEY S,et al.Marker species for identifying urban groundwater recharge sources:a review and case study in Nottingham,UK[J].Water Research,1999,33(14):3083-3097. [51] FAHRENFELD N L,DEL M N,COATES J,et al.Fecal Sterol and Runoff Analysis for Nonpoint Source Tracking[J].Journal of Environmental Quality,2016,45(1):315-322. [52] LIM F,ONG S,HU J.Recent advances in the use of chemical markers for tracing wastewater contamination in aquatic environment:a review[J].Water,2017,9(2):143. [53] DERRIEN M,JARDE E,GRUAU G,et al.Origin of fecal contamination in waters from contrasted areas:stanols as Microbial Source Tracking markers[J].Water Research,2012,46(13):4009-4016. [54] FURTULA V,OSACHOFFF H,DERKSEN G,et al.Inorganic nitrogen,sterols and bacterial source tracking as tools to characterize water quality and possible contamination sources in surface water[J].Water Research,2012,46(4):1079-1092.
点击查看大图
计量
- 文章访问数: 223
- HTML全文浏览量: 46
- PDF下载量: 8
- 被引次数: 0